CN216704877U - High-efficiency double-side puttying machine for sheet plates - Google Patents

Abstract

The utility model discloses a high-efficiency double-side puttying machine for sheet plates, which comprises a rack, side plates, a base, a clamping plate mechanism, a conveying mechanism, a putty pool, a putty coating roller, a stirring roller, an inclined plane scraper and a power mechanism, wherein the side plates are arranged on the rack; the inner side of the rack is provided with a pair of side plates, the upper parts of the side plates are sequentially provided with a clamping plate mechanism, a conveying mechanism and a putty pool, the clamping plate mechanism penetrates through the conveying mechanism and the putty pool, a putty coating roller and a stirring roller are arranged in the putty pool, a plate inlet and a plate outlet are formed in the putty pool, a sealing strip is arranged at the plate inlet of the putty pool, a discharge port is formed in the bottom of the putty pool, a pair of inclined plane scrapers are arranged at the plate outlet of the putty pool, limiting plates are arranged on two sides of the clamping plate mechanism and penetrate through the conveying mechanism and the putty pool, and one end of each limiting plate is fixedly connected to the side plate at the plate outlet; the outer side of the frame is provided with a base, and the base is provided with a power mechanism. The utility model realizes the automation of putty coating on both sides of the sheet material, and has high efficiency and good quality.

Description

High-efficiency double-side puttying machine for sheet plates

Technical Field

The utility model belongs to the technical field of plate processing equipment, and particularly relates to an efficient double-side puttying machine for a sheet plate.

Background

After retrieval, the four-side puttying machine with the authorization notice number of CN 104858099B comprises a conveying mechanism, a scraping mechanism, a power mechanism and a frame, wherein the conveying mechanism comprises a conveying roller, a carrier roller and a protective frame, and one side of the conveying mechanism is provided with the scraping mechanism; the coating and scraping mechanism comprises a board inlet, a putty pool, a putty coating roller, a stirring roller, a scraper in the pool and a board outlet, wherein the putty pool mainly comprises a putty baffle, a hopper and a collecting port, the board outlet is provided with an upper scraper and a lower scraper, one side of the upper scraper and one side of the lower scraper are provided with a knife pressing plate, and the top of the upper scraper is provided with a cylinder; the power mechanism comprises a motor, a speed reducer and a gear.

In the actual use process, the following inconveniences occur to the user: 1) for the putty coating of a thin plate with the thickness of 2-5 mm, because the strength of the thin plate is low, the thin plate is easy to break under the resistance of putty in a putty pool in the putty coating process, so that the thin plate is easy to damage in different directions due to the thin bearing force of the thin plate, and the putty coating fails; 2) for sheet plates, the existing putty coating technology is completed by single-side putty coating, after the completion, the other side needs to be turned over, and the putty coating is completed again, so that the production process efficiency is low.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, provides an efficient double-side puttying machine for sheet plates, realizes automation of double-side puttying of the sheet plates, and has high efficiency and good quality.

In order to achieve the purpose, the utility model adopts the technical scheme that:

an efficient double-side putty scraping machine for sheet plates comprises a rack, side plates, a base, a clamping plate mechanism, a conveying mechanism, a putty pool, a putty coating roller, a stirring roller, an inclined plane scraper and a power mechanism; the automatic putty coating machine is characterized in that a pair of side plates are arranged on the inner side of the rack, a clamping plate mechanism, a conveying mechanism and a putty pool are sequentially arranged on the upper portions of the side plates, the clamping plate mechanism penetrates through the conveying mechanism and the putty pool, a putty coating roller and a stirring roller are arranged in the putty pool, a plate inlet and a plate outlet are formed in the putty pool, a sealing strip is arranged at the plate inlet of the putty pool, a discharge port is formed in the bottom of the putty pool, a pair of inclined plane scrapers are arranged at the plate outlet of the putty pool, limiting plates are arranged on two sides of the clamping plate mechanism and penetrate through the conveying mechanism and the putty pool, and one end of each limiting plate is fixedly connected to the side plate at the plate outlet; the frame outside is equipped with the base, is equipped with power unit on the base, and power unit provides power for transport mechanism, scribble putty roller, stirring roller, and sheet metal panel gets into transport mechanism through the spacing centre gripping of splint mechanism, and transport mechanism sends into sheet metal panel and scribbles putty in the putty pond, realizes the two-sided putty of sheet metal panel through a pair of inclined plane scraper at last.

The clamping plate mechanism comprises a supporting plate I, lower clamping plates, upper clamping plates, a connecting plate I, an air cylinder I and a fixing plate I, wherein two ends of the supporting plate I are fixedly connected to the side plates; fixed plate I sets up in the frame top, I both ends of fixed plate are equipped with cylinder I, cylinder I is adjustable cylinder, I projecting shaft of cylinder is equipped with connecting plate I, cylinder I drives connecting plate I and stretches out, clearance between further regulation punch holder and the lower plate, inject floating position in the panel data transfer process through punch holder and lower plate, the resistance of putty takes place to convey the beating of marcing in the time of having further guaranteed among the sheet metal data transfer process because of the putty pond, prevent that the sheet metal from taking place the damage scribbling the putty in-process.

Preferably, be equipped with screw rod I between fixed plate I and the connecting plate I, I head of screw rod is equipped with the nut for distance between I adjustment fixed plate I of screw rod and the connecting plate I further satisfies the clearance between punch holder and the lower plate even through swivel nut.

The power mechanism comprises a motor, a speed reducer, a gear I, a chain wheel, a transmission shaft and a bracket; the motor is connected with a speed reducer through a transmission belt, a gear I is arranged at the shaft end of the speed reducer, and a chain wheel is arranged on one side of the gear I; the transmission shaft is arranged between the bracket and the rack through a bearing seat, double rows of chain wheels are arranged on the transmission shaft, and chain wheels are arranged at the shaft end of the speed reducer and connected with chain wheels arranged on the transmission shaft through chains.

The conveying mechanism comprises a lower driving roller, an upper driving roller, a gear III, a sliding bearing seat, a pressure spring II and a screw II; the lower driving roller is movably connected to the rack through a bearing seat, a gear III is arranged at one shaft end of the lower driving roller, and the gear III is meshed with a gear I in a power mechanism; the top of the lower driving roller is provided with an upper driving roller, the lower driving roller and the upper driving roller are V-shaped grooved rollers or embossing rollers, the lower driving roller and the upper driving roller are both provided with a plurality of placing grooves, and the placing grooves are used for placing a lower clamping plate and an upper clamping plate in the clamping plate mechanism; two shaft ends of the upper driving roller are provided with sliding bearing seats, and two ends of each sliding bearing seat are provided with guide blocks II; the sliding bearing block is provided with an adjusting mechanism, the adjusting mechanism adjusts the relative position of the sliding bearing block on the guide block II, and the gap between the lower driving roller and the upper driving roller is further adjusted; a chain wheel is arranged at one shaft end of the upper driving roller, and one group of double-row chain wheels on the transmission shaft is connected with the chain wheel at the one shaft end of the upper driving roller through a chain; the power mechanism provides power, and the conveying mechanism conveys the sheet plate and enters the putty pool to be coated with putty.

The stirring roller is movably connected to the rack through a bearing seat, a gear V is arranged at one shaft end of the stirring roller and is meshed with a gear III in the conveying mechanism, and a chain wheel is arranged on one side of the gear V; two ends of the stirring roller in the putty pool are provided with a baffle II, one side of the baffle II is provided with a pressure spring III, one side of the pressure spring III is provided with a blocking round block, the stirring roller outside the putty pool is provided with a gland packing shaft sealing device, and putty in the putty pool is prevented from overflowing from the end of the stirring roller through the combined action of the blocking round block and the gland packing shaft sealing device;

the putty coating roller comprises a putty coating roller and a lower putty coating roller, the putty coating roller is a V-shaped grooved roller or an embossing roller, a pressure spring III is arranged on one side of the putty coating roller in the putty pool, a blocking round block is arranged on one side of the pressure spring III, a baffle II is arranged on the putty coating roller outside the putty pool, a pressure spring III is arranged on one side of the baffle II, and a pressing block is arranged on one side of the pressure spring III; through the combined action of the blocking round block and the pressing block, the putty in the putty pool is prevented from overflowing from the end of the putty coating roller shaft;

a gland packing shaft sealing device is arranged on the lower putty coating roller outside the putty pool, and the putty in the putty pool is prevented from overflowing from the roller end of the lower putty coating roller through the combined action of the blocking round block and the gland packing shaft sealing device;

the lower putty coating roller and the upper putty coating roller are both provided with a plurality of placing grooves, and the placing grooves are used for placing a lower clamping plate and an upper clamping plate in the clamping plate mechanism; the lower putty coating roller is movably connected to the frame through a bearing seat, a gear IV is arranged at one shaft end of the lower putty coating roller, and the gear IV is meshed with a gear V at one shaft end of the stirring roller; the end of the putty coating roller shaft is provided with a sliding bearing seat, and two ends of the sliding bearing seat are provided with guide blocks II; the sliding bearing block is provided with an adjusting mechanism, the adjusting mechanism adjusts the relative position of the sliding bearing block on the guide block II, and the gap between the lower putty coating roller and the upper putty coating roller is further adjusted; scribble putty roller one axle end and be equipped with the sprocket, scribble putty roller one axle end sprocket in the middle and upper drive roller axle end sprocket passes through the chain connection in the transport mechanism.

The adjusting mechanism is a screw pressure spring adjusting mechanism which comprises a screw II and a pressure spring II, the upper part of the sliding bearing seat is provided with the screw II, the outer side of the screw II is provided with the pressure spring II, the pressure spring II is arranged between the top plate of the rack and the sliding bearing seat, and the head part of the screw II is provided with a nut; the relative position of the sliding bearing seat on the guide block II is further adjusted through the rotating nut, and the gap between the lower driving roller and the upper driving roller is further adjusted.

The adjusting mechanism is an adjustable cylinder, the upper part of the sliding bearing seat is provided with the adjustable cylinder, the cylinder body of the adjustable cylinder is fixed on the rack, and the telescopic rod of the adjustable cylinder is fixedly connected with the sliding bearing seat.

Preferably, a compression roller mechanism is arranged at the front end of the conveying mechanism and comprises a driving roller, a compression roller, a connecting plate II, a guide block I, a cylinder II, a compression spring I, a baffle I and a gear II; the driving roller is a V-shaped grooved roller or an embossing roller, the driving roller is movably connected to the rack through a bearing seat, a plurality of placing grooves are formed in the driving roller, and the placing grooves are used for placing a lower clamping plate and an upper clamping plate in the clamping plate mechanism; the bottom of the connecting plate II is provided with a plurality of compression rollers which extrude the transmission roller, the top of the connecting plate II is provided with an air cylinder II, a cylinder body at the tail part of the air cylinder II is fixedly connected to the rack, and the air cylinder II is ejected out or stretches out to drive the compression rollers on the connecting plate II to contact with or separate from the transmission roller; the outer sides of two ends of the connecting plate II are provided with guide blocks I, and the guide blocks I are used for guiding the vertical displacement of the connecting plate II; the utility model discloses a rolling press device, including cylinder II, baffle I, pressure spring I, connecting plate II, pressure spring I, pressure spring II, pressure spring I, pressure roller, pressure spring mechanism, pressure roller, pressure spring II, pressure spring I, pressure spring II, pressure spring mechanism, pressure spring II, pressure spring I, pressure roller, pressure spring II, pressure spring I, pressure spring II, pressure spring mechanism, pressure spring II, pressure spring I, rolling transmission in-process, and the sheet metal is not hurt.

Preferably, putty bottom of the pool portion is equipped with retrieves the mechanism, retrieve the mechanism and include hopper plate, screw conveyer, discharge gate, hopper plate bottom is equipped with screw conveyer, and screw conveyer one end is equipped with the discharge gate, and screw conveyer other end axle head is equipped with the sprocket, and screw conveyer axle head sprocket passes through the chain and connects stirring roller axle head sprocket, and the stirring roller provides power for putty of putty pond in advance board mouth, play board mouth overflow realizes retrieving.

Preferably, the middle-upper inclined plane scraper fixed connection of putty pond delivery port department inclined plane scraper is on the activity cutting board, and activity cutting board upper portion is equipped with cylinder III, and cylinder III is adjustable cylinder, and III cylinder body fixed connection of cylinder is on fixed plate II, and III telescopic links fixed connection of cylinder are on the activity cutting board, thereby through the clearance between the further regulation upper inclined plane scraper of the fine setting of the III strokes of cylinder and the lower inclined plane scraper to the putty of scraping of the different thickness of adaptation sheet metal panel.

Preferably, the upper portion of the base is provided with a shield, a reserved opening is formed in a panel of the rack close to the power mechanism, the reserved opening is used for being externally connected with transmission power of the power mechanism, and a side shield is arranged on one side of the rack.

Compared with the prior art, the utility model has the beneficial effects that:

1) the sheet plate enters the conveying mechanism through the limiting clamping of the clamping plate mechanism, the conveying mechanism conveys the sheet plate into the putty pool for putty coating, and finally the double-sided putty coating of the sheet plate is realized through the inclined plane scraper, so that the sheet putty coating is smooth, full and free of omission, the automation of the sheet putty coating is realized, the time and the labor are saved, the efficiency is high, and the quality is high;

2) a pressure spring is arranged on the central shaft of the putty coating roller on the inner side of the putty pool, a blocking round block is arranged on one side of the pressure spring and clings to the putty baffle, the pressure spring is arranged on the central shaft of the putty coating roller on the outer side of the putty pool, and a pressing block is arranged on one side of the pressure spring and prevents putty material from leaking through the central shaft of the putty coating roller, so that the putty material is wasted and the working environment is polluted;

3) a pressure spring is arranged on the central shaft of the stirring roller on the inner side of the putty pool, a blocking round block is arranged on one side of the pressure spring, and a pressing block is arranged on the central shaft of the stirring roller on the outer side of the putty pool, so that putty materials are prevented from leaking from the central shaft of the stirring roller, the waste of the putty materials is prevented, and the working environment is polluted;

4) a recovery mechanism is arranged at the bottom of the putty pool, so that the putty overflowing from the putty pool at the plate inlet and the plate outlet is recovered;

5) the automatic board coating and scraping machine is provided with an adjusting mechanism, can be used for thick boards or thin boards such as veneer boards, core boards of cottons, ecological boards, multilayer boards, solid boards and the like, has good effect, and realizes the mechanization and automation of the coating and scraping processing of boards.

Drawings

FIG. 1 is a schematic structural view of a double-sided puttying machine for efficient sheet materials;

FIG. 2 is a schematic structural diagram of a power mechanism in the high-efficiency double-sided puttying machine for sheet materials;

FIG. 3 is a schematic structural view of a clamping plate mechanism in the high-efficiency double-side puttying machine for sheet materials;

FIG. 4 is a schematic structural view of a stirring roller and a recovery mechanism in the high-efficiency double-sided puttying machine for sheet materials;

FIG. 5 is a schematic structural view of a press roller mechanism in the high-efficiency double-side puttying machine for sheet materials;

FIG. 6 is a schematic diagram of the internal structure of a conveying mechanism and a putty pool in the efficient double-sided putty-applying machine for thin plates;

FIG. 7 is a schematic structural view of a putty coating roller and a stirring roller in the efficient double-sided putty scraper for sheet plates;

in the figure: 11. a frame; 12. a side plate; 13. a base; 14. a clamping plate mechanism; 15. a press roll mechanism; 16. a transport mechanism; 17. a soapberry pool; 171. a discharge port; 172. a plate inlet; 173. a plate outlet; 174. sealing tape; 18. coating a putty roller; 19. a stirring roller; 191. a gear V; 20. a bevel scraper; 21. a power mechanism; 22. a recovery mechanism; 23. a limiting plate; 101. a shield; 102. a side shield; 103. reserving a port; 201. a support plate I; 202. a lower splint; 203. an upper splint; 204. a connecting plate I; 205. a cylinder I; 206. a fixing plate I; 207. a screw I; 301. a driving roller; 3011. a placement groove; 302. pressing rollers; 303. a connecting plate II; 304. a guide block I; 305. a cylinder II; 306. a pressure spring I; 307. a baffle plate I; 308. a gear II; 401. a lower drive roller; 402. an upper drive roller; 403. a gear III; 404. a sliding bearing seat; 405. a pressure spring II; 406. a screw II; 407. a guide block II; 501. a pressure spring III; 502. a block round block; 503. a compression block; 504. a baffle II; 505. a gear IV; 506. a gland packing shaft sealing device; 601. a motor; 602. a speed reducer; 603. a gear I; 604. a sprocket; 605. a drive shaft; 606. a support; 701. a movable cutting board; 702. fixing a plate II; 703. a cylinder III; 801. a hopper plate; 802. a screw conveyor; 803. and (4) discharging a material outlet.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 7.

An efficient double-side puttying machine for sheet plates comprises a frame 11, side plates 12, a base 13, a clamping plate mechanism 14, a conveying mechanism 16, a putty pool 17, a putty coating roller 18, a stirring roller 19, an inclined plane scraper 20 and a power mechanism 21; the inner side of the rack 11 is provided with a pair of side plates 12, the upper parts of the side plates 12 are sequentially provided with a clamping plate mechanism 14, a conveying mechanism 16 and a putty pool 17, the clamping plate mechanism 14 penetrates through the conveying mechanism 16 and the putty pool 17, a putty coating roller 18 and a stirring roller 19 are arranged in the putty pool 17, the putty pool 17 is provided with a plate inlet 172 and a plate outlet 173, a sealing strip 174 is arranged at the plate inlet of the putty pool 17, a discharge outlet 171 is arranged at the bottom of the putty pool 17, a pair of inclined scraper 20 is arranged at the plate outlet of the putty pool 17, limiting plates 23 are arranged at two sides of the clamping plate mechanism 14, the limiting plates 23 penetrate through the conveying mechanism 16 and the putty pool 17, and one ends of the limiting plates 23 are fixedly connected to the side plates 12 at the plate outlet; the outer side of the rack 11 is provided with a base 13, the base 13 is provided with a power mechanism 21, the power mechanism 21 provides power for a conveying mechanism 16, a putty coating roller 18 and a stirring roller 19, a thin plate enters the conveying mechanism 16 through the limiting clamping of the clamping plate mechanism 14, the conveying mechanism 16 conveys the thin plate into a putty pool 17 for coating putty, and finally double-sided putty coating of the thin plate is realized through a pair of inclined plane scrapers 20.

The clamping plate mechanism 14 comprises a supporting plate I201, a lower clamping plate 202, an upper clamping plate 203, a connecting plate I204, a cylinder I205 and a fixing plate I206, wherein two ends of the supporting plate I201 are fixedly connected to the side plates 12, the lower clamping plates 202 are arranged on the upper portion of the supporting plate I201, the upper clamping plates 203 are arranged on the upper portions of the lower clamping plates 202, the upper clamping plates 203 correspond to the lower clamping plates 202 one to one, and the upper clamping plates 203 are fixedly connected to the connecting plate I204; fixed plate I206 sets up in 11 tops of frame, fixed plate I206 both ends are equipped with cylinder I205, cylinder I205 is adjustable cylinder, cylinder I205 projecting shaft is equipped with connecting plate I204, cylinder I205 drives connecting plate I204 and stretches out, further clearance between regulation punch holder 203 and the lower plate 202, inject the position of floating in the panel data send process through punch holder 203 and lower plate 202, the resistance of putty takes place to convey the beating of marcing in the putty pond in further having guaranteed the sheet metal data send process, prevent that the sheet metal from taking place the damage at the putty in-process of scribbling.

Further, be equipped with screw rod I207 between fixed plate I206 and the connecting plate I204, screw rod I207 head is equipped with the nut, through swivel nut for the distance between fixed plate I206 of screw rod I207 adjustment and the connecting plate I204 further satisfies the clearance between punch holder 203 and the lower plate 202 even.

The power mechanism 21 comprises a motor 601, a speed reducer 602, a gear I603, a chain wheel 604, a transmission shaft 605 and a bracket 606; the motor 601 is connected with a speed reducer 602 through a transmission belt, the shaft end of the speed reducer 602 is provided with a gear I603, and one side of the gear I603 is provided with a chain wheel 604; the transmission shaft 605 is arranged between the bracket 606 and the frame 11 through a bearing seat, a double-row chain wheel is arranged on the transmission shaft 605, and a chain wheel 604 is arranged on the shaft end of the speed reducer 602 and connected with the transmission shaft 605 through a chain, and the chain wheel 604 is arranged on the transmission shaft 605.

The conveying mechanism 16 comprises a lower driving roller 401, an upper driving roller 402, a gear III 403, a sliding bearing seat 404, a pressure spring II 405 and a screw II 406; the lower driving roller 401 is movably connected to the frame 11 through a bearing seat, a gear III 403 is arranged at one shaft end of the lower driving roller 401, and the gear III 403 is meshed with a gear I603 in the power mechanism 21; an upper driving roller 402 is arranged at the top of the lower driving roller 401, the lower driving roller 401 and the upper driving roller 402 are V-shaped grooved rollers or embossing rollers, the lower driving roller 401 and the upper driving roller 402 are both provided with a plurality of placing grooves 3011, and the placing grooves 3011 are used for placing a lower clamping plate 202 and an upper clamping plate 203 in the clamping plate mechanism; a sliding bearing seat 404 is arranged at the shaft end of the upper driving roller 402, and two ends of the sliding bearing seat 404 are provided with guide blocks II 407; an adjusting mechanism is arranged on the sliding bearing block 404, and the adjusting mechanism adjusts the relative position of the sliding bearing block 404 on the guide block II 407, so as to further adjust the gap between the lower driving roller 401 and the upper driving roller 402; a chain wheel 604 is arranged at one shaft end of the upper driving roller 402, one group of chain wheels 604 of double rows on the transmission shaft 605 is connected with the chain wheel 604 at one shaft end of the upper driving roller 402 through a chain; the power mechanism 21 provides power, and the conveying mechanism 16 conveys the sheet plates into the putty pool 17 for putty coating.

The stirring roller 19 is movably connected to the frame 11 through a bearing seat, a gear V191 is arranged at one axial end of the stirring roller 19, the gear V191 is meshed with a gear III 403 in the transmission mechanism 16, and a chain wheel 604 is arranged on one side of the gear V191; two ends of a stirring roller 19 in the putty pool are provided with baffle plates II 504, one side of the baffle plates II 504 is provided with a pressure spring III 501, one side of the pressure spring III 501 is provided with a blocking round block 502, the stirring roller 19 outside the putty pool is provided with a gland packing shaft sealing device 506, the gland packing shaft sealing device is obtained by private customization or purchase, the gland packing shaft sealing device comprises packing, a packing box and a packing fixing part, commonly used packing materials comprise asbestos fabrics, carbon fibers, rubber, flexible graphite, engineering plastics and the like, the packing is prefabricated into a ring shape or a strip shape, some packing with good lubricity needs to be pre-impregnated, a multi-ring or spiral multi-layer structure is adopted, the packing box is used for placing the packing, the packing fixing part comprises a gland, a bolt, a spring and the like and is used for pre-tightening the packing, the medium is prevented from leaking outwards during working, and the spring can play a compensation role; the stirring roller prevents putty in the putty pool from overflowing from the shaft end of the stirring roller through the combined action of the blocking round block and the gland packing shaft sealing device;

the putty coating roller 18 comprises a putty coating roller and a lower putty coating roller, the putty coating roller 18 is a V-shaped grooved roller or an embossing roller, a pressure spring III 501 is arranged on one side of the putty coating roller 18 in the putty pool, and a blocking round block 502 is arranged on one side of the pressure spring III 501; a baffle II 504 is arranged on the putty coating roller outside the putty pool, a pressure spring III 501 is arranged on one side of the baffle II 504, a pressing block 503 is arranged on one side of the pressure spring III 501, and the putty in the putty pool is prevented from overflowing from the shaft end of the putty coating roller through the combined action of the blocking round block 502 and the pressing block 503;

a gland packing shaft sealing device 506 is arranged on the lower putty coating roller outside the putty pool, the gland packing shaft sealing device is obtained through private customization or purchase, and the lower putty coating roller prevents putty in the putty pool from overflowing from the roller end of the lower putty coating roller through the combined action of a blocking round block and the gland packing shaft sealing device;

the lower putty coating roller and the upper putty coating roller are both provided with a plurality of placing grooves 3011, and the placing grooves 3011 are used for placing a lower clamping plate 202 and an upper clamping plate 203 in a clamping plate mechanism; the lower putty coating roller is movably connected to the rack 11 through a bearing seat, a gear IV 505 is arranged at one shaft end of the lower putty coating roller, and the gear IV 505 is meshed with a gear V191 at one shaft end of the stirring roller 19; sliding bearing seats 404 are arranged at two shaft ends of the putty coating roller, and guide blocks II 407 are arranged at two ends of each sliding bearing seat 404; an adjusting mechanism is arranged on the sliding bearing seat 404, the adjusting mechanism adjusts the relative position of the sliding bearing seat 404 on the guide block II 407, and further adjusts the gap between the lower putty coating roller and the upper putty coating roller; a chain wheel 604 is arranged at one shaft end of the putty coating roller, and the chain wheel 604 at the shaft end of the upper driving roller in the conveying mechanism 16 is connected with the chain wheel 604 at the shaft end of the putty coating roller through a chain.

The adjusting mechanism is a screw pressure spring adjusting mechanism which comprises a screw II 406 and a pressure spring II 405, the screw II 406 is arranged at the upper part of the sliding bearing seat 404, the pressure spring II 405 is arranged on the outer side of the screw II 406, the pressure spring II 405 is arranged between the top plate of the rack and the sliding bearing seat 404, and a nut is arranged at the head of the screw II 406; the relative position of the sliding bearing seat 404 on the guide block II 407 is further adjusted through rotating the nut, and the gap between the lower driving roller and the upper driving roller is further adjusted.

The adjusting mechanism is an adjustable cylinder, the upper portion of the sliding bearing seat 404 is provided with the adjustable cylinder, a cylinder body of the adjustable cylinder is fixed on the rack 11, and an expansion rod of the adjustable cylinder is fixedly connected with the sliding bearing seat 404.

Further, a press roller mechanism 15 is arranged at the front end of the conveying mechanism 16, and the press roller mechanism 15 comprises a driving roller 301, a press roller 302, a connecting plate II 303, a guide block I304, an air cylinder II 305, a pressure spring I306, a baffle I307 and a gear II 308; the driving roller 301 is a V-shaped grooved roller or an embossing roller, the driving roller 301 is movably connected to the frame 11 through a bearing seat, a plurality of placing grooves 3011 are arranged on the driving roller 301, and the placing grooves 3011 are used for placing the lower clamping plate 202 and the upper clamping plate 203 in the clamping plate mechanism; the bottom of the connecting plate II 303 is provided with a plurality of pressing rollers 302, the pressing rollers 302 press the driving roller 301, the top of the connecting plate II 303 is provided with an air cylinder II 305, the air cylinder II 305 is an adjustable air cylinder, a cylinder body at the tail part of the air cylinder II 305 is fixedly connected to the rack 11, and the air cylinder II 305 ejects out or stretches out to drive the pressing rollers 302 on the connecting plate II to contact with or separate from the driving roller 301; the outer sides of two ends of the connecting plate II 303 are provided with guide blocks I304, and the guide blocks I304 are used for guiding the vertical displacement of the connecting plate II 303; the utility model discloses a rolling transmission device, including cylinder II 305, baffle I307 one side is equipped with pressure spring I306, II 305 projecting shafts of cylinder pass II 303 of connecting plate, II 305 projecting shaft tip of cylinder pass through the nut and support II 303 of connecting plate, II projecting shafts of pressure spring I306 pass II projecting shafts of cylinder and set up between I307 of baffle and II 303 of connecting plate, I306 of pressure spring carry out the pre-compaction to the compression roller 302 of II 303 bottoms of connecting plate, when panel passes through compression roller mechanism, the compression roller has certain resilience under the pressure spring effect, do not harm sheet metal in the rolling transmission process.

Further, putty pond 17 bottom is equipped with retrieves mechanism 22, retrieve mechanism 22 and include hopper board 801, screw conveyer 802, discharge gate 803, hopper board 801 bottom is equipped with screw conveyer 802, and screw conveyer 802 one end is equipped with discharge gate 803, and screw conveyer 802 other end axle head is equipped with sprocket 604, and 19 axle head sprockets 604 of stirring roller are connected through the chain to screw conveyer 802 axle head sprockets 604, and stirring roller 19 provides power for putty in putty pond advancing board mouth, play board mouth overflow realizes retrieving.

Further, go up inclined plane scraper fixed connection on movable cutting board 701 in the putty pond 17 delivery port department inclined plane scraper 20, movable cutting board 701 upper portion is equipped with cylinder III 703, cylinder III 703 is adjustable cylinder, cylinder III 703 cylinder body fixed connection is on fixed plate II 702, cylinder III 703 telescopic link fixed connection is on movable cutting board 701, thereby go up the clearance between inclined plane scraper and the lower inclined plane scraper in the further regulation through the fine setting of the III strokes of cylinder to the putty of scraping of the different thickness of adaptation sheet metal.

Further, a shield 101 is arranged on the upper portion of the base 13, a reserved opening 103 is formed in a panel of the frame close to the power mechanism, the reserved opening is used for being connected with transmission power of the power mechanism, and a side shield 102 is arranged on one side of the frame 11.

An efficient double-sided puttying machine for sheet plates comprises the following working processes: the power mechanism 21 provides power for the compression roller mechanism 15, the conveying mechanism 16, the putty coating roller 18 and the stirring roller 19, the thin plate enters the compression roller mechanism 15 and the conveying mechanism 16 through the limiting clamping of the clamping plate mechanism 14, the conveying mechanism 16 conveys the thin plate into the putty pool 17 for putty coating, and finally double-sided putty coating of the thin plate is realized through the pair of inclined plane scrapers 20.

The foregoing is merely exemplary and illustrative of the present invention, and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. An efficient double-side putty scraping machine for sheet plates comprises a rack, side plates, a base, a clamping plate mechanism, a conveying mechanism, a putty pool, a putty coating roller, a stirring roller, an inclined plane scraper and a power mechanism; the putty coating machine is characterized in that a pair of side plates are arranged on the inner side of the rack, a clamping plate mechanism, a conveying mechanism and a putty pool are sequentially arranged on the upper portions of the side plates, the clamping plate mechanism penetrates through the conveying mechanism and the putty pool, a putty coating roller and a stirring roller are arranged in the putty pool, a plate inlet and a plate outlet are formed in the putty pool, a sealing strip is arranged at the plate inlet of the putty pool, a discharge port is formed in the bottom of the putty pool, a pair of inclined plane scrapers are arranged at the plate outlet in the putty pool, limiting plates are arranged on two sides of the clamping plate mechanism, the limiting plates penetrate through the conveying mechanism and the putty pool, and one end of each limiting plate is fixedly connected to the side plate at the plate outlet; the outer side of the frame is provided with a base, and the base is provided with a power mechanism.

2. The efficient double-side puttying machine for the thin plate materials is characterized in that the clamping plate mechanism comprises a supporting plate I, lower clamping plates, upper clamping plates, a connecting plate I, a cylinder I and a fixing plate I, wherein two ends of the supporting plate I are fixedly connected to side plates, the upper parts of the supporting plate I are provided with the lower clamping plates, the upper parts of the lower clamping plates are provided with the upper clamping plates, the upper clamping plates correspond to the lower clamping plates one to one, and the upper clamping plates are fixedly connected to the connecting plate I; the fixing plate I is arranged at the top of the rack, two ends of the fixing plate I are provided with air cylinders I, the air cylinders I are adjustable air cylinders, and extending shafts of the air cylinders I are provided with connecting plates I; be equipped with screw rod I between fixed plate I and the connecting plate I, I head of screw rod is equipped with the nut.

3. The efficient double-sided puttying machine for the sheet plates according to claim 1, wherein a press roller mechanism is arranged at the front end of the conveying mechanism, and comprises a driving roller, a press roller, a connecting plate II, a guide block I, a cylinder II, a pressure spring I, a baffle I and a gear II; the driving roller is a V-shaped grooved roller or an embossing roller, the driving roller is movably connected to the rack through a bearing seat, and a plurality of placing grooves are formed in the driving roller; the bottom of the connecting plate II is provided with a plurality of compression rollers which extrude the transmission roller, the top of the connecting plate II is provided with an air cylinder II, and a cylinder body at the tail part of the air cylinder II is fixedly connected to the rack; the outer sides of two ends of the connecting plate II are provided with guide blocks I; be equipped with baffle I on the II projecting shafts of cylinder, I one side of baffle is equipped with pressure spring I, and II projecting shafts of cylinder pass connecting plate II, and II projecting shaft tip of cylinder pass through the nut and support connecting plate II, and pressure spring I passes II projecting shafts of cylinder and sets up between baffle I and connecting plate II.

4. The high-efficiency double-sided puttying machine for the sheet plates according to claim 1, wherein an upper inclined plane scraper of the inclined plane scrapers at the plate outlet of the putty pool is fixedly connected to the movable knife plate, a cylinder III is arranged on the upper portion of the movable knife plate, the cylinder III is an adjustable cylinder, a cylinder body of the cylinder III is fixedly connected to a fixed plate II, and a telescopic rod of the cylinder III is fixedly connected to the movable knife plate.

5. The efficient double-sided puttying machine for the sheet plates according to claim 1, wherein the power mechanism comprises a motor, a speed reducer, a gear I, a chain wheel, a transmission shaft and a bracket; the motor is connected with a speed reducer through a transmission belt, a gear I is arranged at the shaft end of the speed reducer, and a chain wheel is arranged on one side of the gear I; the transmission shaft is arranged between the bracket and the rack through a bearing seat, double rows of chain wheels are arranged on the transmission shaft, and chain wheels are arranged at the shaft end of the speed reducer and connected with chain wheels arranged on the transmission shaft through chains.

6. The efficient double-sided puttying machine for sheet plates according to claim 1, wherein a recovery mechanism is arranged at the bottom of the putty pool and comprises a hopper plate, a screw conveyor and a discharge port, the bottom of the hopper plate is provided with the screw conveyor, one end of the screw conveyor is provided with the discharge port, the other end shaft end of the screw conveyor is provided with a chain wheel, and the chain wheel at the shaft end of the screw conveyor is connected with a chain wheel at the shaft end of the stirring roller through a chain;

the upper portion of the base is provided with a shield, a reserved opening is formed in a panel of the rack close to the power mechanism, and a side shield is arranged on one side of the rack.

7. The high-efficiency double-sided puttying machine for the sheet plates according to claim 5, wherein the conveying mechanism comprises a lower driving roller, an upper driving roller, a gear III, a sliding bearing seat, a pressure spring II and a screw II; the lower driving roller is movably connected to the rack through a bearing seat, a gear III is arranged at one shaft end of the lower driving roller, and the gear III is meshed with a gear I in a power mechanism; the top of the lower driving roller is provided with an upper driving roller, the lower driving roller and the upper driving roller are V-shaped grooved rollers or embossing rollers, and the lower driving roller and the upper driving roller are both provided with a plurality of placing grooves; two shaft ends of the upper driving roller are provided with sliding bearing seats, and two ends of each sliding bearing seat are provided with guide blocks II; the sliding bearing seat is provided with an adjusting mechanism; a chain wheel is arranged at one shaft end of the upper driving roller, and one group of double-row chain wheels on the transmission shaft is connected with the chain wheel at the one shaft end of the upper driving roller through a chain.

8. The machine for puttying two sides of a high-efficiency sheet material according to claim 7, wherein the stirring roller is movably connected to the frame through a bearing seat, a gear V is arranged at one axial end of the stirring roller, the gear V is engaged with a gear III in the conveying mechanism, and a chain wheel is arranged on one side of the gear V; a baffle II is arranged at two ends of the stirring roller in the putty pool, a pressure spring III is arranged on one side of the baffle II, a blocking round block is arranged on one side of the pressure spring III, and a gland packing shaft sealing device is arranged on the stirring roller outside the putty pool;

the putty coating roller comprises a putty coating roller and a lower putty coating roller, the putty coating roller is a V-shaped grooved roller or an embossing roller, a pressure spring III is arranged on one side of the putty coating roller in the putty pool, a blocking round block is arranged on one side of the pressure spring III, a baffle II is arranged on the putty coating roller outside the putty pool, a pressure spring III is arranged on one side of the baffle II, and a pressing block is arranged on one side of the pressure spring III; a gland packing shaft sealing device is arranged on the lower putty coating roller outside the putty pool;

the lower putty coating roller and the upper putty coating roller are both provided with a plurality of placing grooves; the lower putty coating roller is movably connected to the frame through a bearing seat, a gear IV is arranged at one shaft end of the lower putty coating roller, and the gear IV is meshed with a gear V at one shaft end of the stirring roller; the end of the putty coating roller shaft is provided with a sliding bearing seat, and two ends of the sliding bearing seat are provided with guide blocks II; the sliding bearing seat is provided with an adjusting mechanism; scribble putty roller one axle end and be equipped with the sprocket, scribble putty roller one axle end sprocket in the middle and upper drive roller axle end sprocket passes through the chain connection in the transport mechanism.

9. The high-efficiency double-sided puttying machine for the thin plate materials according to claim 7 or 8, wherein the adjusting mechanism is a screw pressure spring adjusting mechanism, the screw pressure spring adjusting mechanism comprises a screw II and a pressure spring II, the screw II is arranged at the upper part of the sliding bearing seat, the pressure spring II is arranged outside the screw II, the pressure spring II is arranged between the top plate of the rack and the sliding bearing seat, and the head of the screw II is provided with a nut.

10. The machine according to claim 7 or 8, wherein the adjusting mechanism is an adjustable cylinder, the upper part of the sliding bearing block is provided with an adjustable cylinder, the cylinder body of the adjustable cylinder is fixed on the frame, and the telescopic rod of the adjustable cylinder is fixedly connected with the sliding bearing block.

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